Number 7 Fisheries and Wildlife Paper, Victoria

Fisheries and Wildlife Paper, Victoria September 1975

Number 7

The Zoobenthos Program in Port Phillip Bay, 1969-73 by G,C.B. Poore, S.F, Rainer R~B. Spies and E. Ward.

Published and printed by the Ministry for Conservation Fisheries and Wildlife Division 632 Bourke Street, Melbourne Victoria, Australia 3000 Fish. Wi ZdZ. Pap._, Viat.

THE ZOOBENTHOS PROGRAM IN PORT PHILLIP BAY 1969-73 G • C • B • P oore 2 ,

1

. 2, 3 , R. B • Sp1es . 2, 4 and E • W.ar d2 S. Ra1ner

ABSTRACT Eighty-six stations on a regular grid pattern in Port Phillip Bay were quantitatively sampled for macrozoobenthos; details of the methods used are given. The 713 species found are listed systematically and distribution data listed. Sediment characteristics (grain size parameters and percentage carbon) were also obtained for each station and are included. INTRODUCTION The program reported here is part of a broadly-based environmental study of the physical, chemical and biological characteristics of Port Phillip Bay, carried out jointly by the Melbourne and Metropolitan Board of Works and Fisheries and Wildlife Division, Victoria. The biological· programs of this, the Port Phill Bay Environmental Study (PPBES) were undertaken by the Marine Pollution Studies Group of the Fisheries.and Wildlife Division, and included studies in the phytoplankton, macroalgae zooplankton, zoobenthos and fish of the Bay ecosystem. The general aims of the PPBES were to determine the effects of the vat'ious aquatic discharges into the Bay and to investigate appropriate parameters to be used to evaluate future quantitative changes in the Bay. The initial studies undertaken were descriptive to provide a quantitative baseline against which future change may be gauged and to define the areas of. the Bay most susceptible to human influence. Many of the results of the Study from 1968 to 1971 have been presented elsewhere (MMB\.J and FWD 1973), together with a detailed discussion of s aims and the methods used. 1

Number 25 in the Ministry for Conservation, Victoria, Environmental Study Series

~arine Pollution Studies Group, Fisheries and Wildlife Division, Melbourne, Australia 3000 3

Present address: Division of Fisheries and Oceanography, CSIRO, Cronulla, Australia 2230

4

.

Present address: Lawrence Livermore Laboratory, Box 808, Livermore, California 94550, U.S.A. 1

Zoobenthic studies have a major role in baseline research on polluted or potentially-polluted marine coastal environments (Lie 1968; Wolff 1973). These authors and others (e.g. Thorson 1957; Stephenson, Williams and Lance 1970) have reviewed zoobenthic community studies and concepts. This paper presents the results of a large-scale zoobenthos survey of the Bay in a form that has been useful in our analysis of the data. It will also, we hope, be useful to others interested in the extent of the collections we hold. In general, the ~oobenthos is a good biological indicator, since the characteristics of zoobenthos populations tend to reflect average conditions over a long time rather than the quality of the immediate environment. In the case of Port Phillip Bay which serves many of the waste disposal needs of Melbourne (population 2.67 millions in June 1974), an adequate knowledge of the distribution and activity of the zoobenthos would enable a reliable assessment to be made of the biological environment's success in coping with the imposed waste loads. As the initial step towards achieving this, a quantitative survey of the zoobenthos of Port Phillip Bay was made in sufficient detail to relate patterns of species distribution to other interacting biological and phy~ico-chemical characteristics of the Bay. In addition to fulfilling the purely local need for a survey of the zoobenthos the survey also makes a contribution to the knowledge of the Australian marine invertebrate fauna which is generally poorly known. The species composition of the soft-bottom communities in Port Phillip Bay has not been defined, although the distribution and abundance of molluscs was described recently (Poore and Rainer 1974). Previous collecting in Port Phillip Bay has concentrated on hard substrates, especially in the intertidal region. An earlier survey (1957-1963) of the Port Phillip Bay flora and fauna has been published (Memoirs of the National Museum of Victoria 27 and 32, 1966 and 1971), and Black (1971) assessed the benthic communities evident from this work. Information is available on the geology (Bowler 1966), bottom sediments (Beasley 1966) and hydrology (Rochford 1966; MMBW and FWD 1973) of Port Phillip Bay. The last paper gives detailed information on water chemistry, inputs and 2

circulation. Poore and Rainer (1974) have summarised this briefly and additional papers on water chemistry are being prepared. A very brief account of the physical environment is given here. Port Phillip Bay is a largely enclosed, marine bay of 1908 km 2 on the south coast of Victoria, Australia. Its average depth is 13.7 m, and except for a few small reefs the bottom is of soft sediment sloping. quickly away from the east coast and more gradually from the west. (Fig. 1). The Bay's main source of fresh water is the Yarra River, which enters in the north, having passed through the city of Melbourne situated entirely in the Bay's catchment. The River is responsible for reducing the salinity in the north and north-east of the Bay. Fresh water also enters the Bay on the west coast from the Werribee sewage-treatment farm, which, in addition, contributes about two-thirds of all nutrient input to the Bay. A 3-km-wide opening links Port Phillip Bay with Bass Strait but exchange of water is dampened by an extensive sandbank and channel system. METHODS Sampling pattern and navigation A regular grid of 86 stations at 5 km intervals was established to cover the whole of the Bay. The stations are at the intersections of two sets of parallel lines running 30?E and 30°W of true north, respectively, such that the distance between any station and its closest neighbours is 5 km. The origin of the grid (stn 917) is 145°E 380S. The stations are numbered 901 to 986 from west to east in latitudinal rows from north. to south (Fig. 1). This triangular pattern has the advantage over a rectangular one in that stations are representative of (and at the centre of) closepacking hexagons rather than squares. Sampling was carried out from three research vessels, R.V. Capitella (15.2 m), R.V. Melita (16.8 m) or R.V. MYsis (6 m). The latter was used only for shallow or otherwise inaccessible stations.

su~lemented

Navigation was usually by dead reckoning by horizontal triangulation from fixed charted po nts. Radio direction finding was used on R.V. Melita f r some f.

..

.•

3

BASS STRAIT

Fig. 1.

Port Phillip Bay showing bathymetry and station positions.

stations distant from the shore. 2 Five 0.1 m samples were taken at one time from each station while the boat was at anchor. Collections were made irregularly over 3! years on the dates given in Appendix I; a duplicate set of samples was collected at stn 927, and only 4 samples were collected at stn 952. Sampling gear Benthic samples were collected by either grab or suction sampler. Two 0~1 m2 Smith-Mcintyre grabs were used (Smith and Mcintyre 1954), one designed for soft bottoms and the other modified to collect a deeper sample on firm sand or shell-sand substrates. The grabs were weighted appropriately to. collect the maximum possible volume. The minimum sample volume accepted was 8 1, approximately half the maximum capacity of the buckets. The modified grab (Fig. 2) was designed with stronger springs and greater travel distance for the buckets than the earlier conventional design. Working drawings of this model are available from the first author. The diver-operated suction sampler (Fig. 3) was used on firm substrates where the grab could not sample adequately (stns 945, 968, 985) or at stations inaccessible to the large research Vessels (stns 966, 975). It was a hydraulicallyoperated venturi sampler similar to one designed by Brett (1964), water for which was supplied by a submersible electric pump. The vertical and horizontal tubes of the sampler are 15 cm diameter and the inlet hose is 35 mm. The submersib~e electric .pump used (~lyft Model B2050, 240 v, 1 hp) del1vers a nom1nal 400 1 m1n- and was suspended from the vessel close to the div~r-operators. Sampling was carried out from within a 0.1 m2 circular sampling frame driven into the sediment and the sample was collected in a 1 mm mesh monofilament nylon bag clamped to the sampler exit tube. Sample treatment Material retained in the suction sampler mesh bags was removed and stored in buffered 5% formalin in sea water. If a lot of shell was present the sample was elutriated (see below).

5

Fig. 2.

The grab is shown in an

open

Fig. 3.

sampler.

Most grab samples were sieved wet through a graded series of sieves with 1 mm minimum aperture and material retained was washed into plastic bags and stored in 5% formalin. Later during the sampling program an efficient elutriator was developed (Fig. 4). Material was placed in the larger of two buckets; a turbulent overflow resulting from water jetted laterally into the bottom of this vessel carried lighter fractions into a tall 1 mm sieve in the smaller bucket. The light and heavy fractions were stored separately. No quantitative analysis of the efficiency of animal removal was done but the time spent sorting sediments of mostly dead shell, was significantly reduced. Treatment for 15-20 min was adequate to elutriate all polychaetes and crustaceans from most sediments; most larger molluscs remained in the heavy fraction. Details of the design of this elutriator are available from the first author •. In the laboratory, samples were resieved and washed with fresh water to remove residual sediment and formalin. Material retained on the sieves was then sorted by hand in white trays using stereo-microscopes. Most of the sorting was carried out by technical assistants and each sample was subsequently checked by one of the authors. All specimens were identified as completely as possible and stored in a 70% ethyl alcohol- 10% glycerine mixture. Species indexing and data storage The abundances of all species found were recorded on system cards and on magnetic tape. Abundances were recorded as number of ii.ldiv.iduals per sample, except for colonial species whose abundance was. recorded as one. The cards were used only for ready reference in the laboratory; the tape records were incorpOE.ted in a data bank of all PPBES records and were used for subsequent electronic data processing. A numerical code was used for species indexing to facilitate data storage retrieval. Each species has a unique three-digit number assigned in ascending order as species are first encountered. The species number is used as the primary identifying label for card and magnetic. tape records and for specimen storage. Two card indexes, ordered by species number and by 7

Fig. 4.

The elutriator.

8.

Lateral and top views.

systematic position, are used. The purpose of the numeric index is to indicate the systematic position on each species. The systematic ind·ex may be used to determine the species number, but it also contains references and diagnostic features useful in identification. Each species card in the systematic index is accompanied by one or more species record cards, identified by species number. These contain all frequency records for each species together with station and sample identification, sampling date and sampling equipment used. The species record cards also· list the container catalogue numbers that are used in the specimen storage system. The abundance data were ptaced on magnetic tape, via punch cards. Each record is indexed by taxon, species number, station number and date of collection, and computation may be carried out on data selected accordingly. Taxonomic revisions of existing material resulted in the addition of new species numbers or deletion of old ones; vacant species numbers were re-used. The name applied to any species is that of the lowest taxon possible at the time. Specimens not identified to species level are numbered sequentially within the taxon used, the first species assigned to any taxon being termed sp. 1. The 'sp' suffix does not neccesarily indicate an undescribed species but reflects our knowledge of the group, the availability of literature and the time available to complete the identification. All specimens are stored after identification and counting, with each species in each sample being kept in uniquely numbered containersa Each container label has a preprinted catalogue number; details noted include species number, station and sample number, and the number of specimens. The containers were initially stored in catalogue number order, but are now being stored in systematic order, as a more convenient means of accessing a larger collection. Most of the material is currently held at the laboratories of the Marine Pollution Studies Group .but from time to time parts are being lodged in the National Museum of Victoria, Melbourne. Representative collections of Mollusca and other groups for which results are being published have been deposited in the Australian Museum, Sydney. Sediments Sediments were analysed by combined sieve treatment of 9

the coarse fractions and pipette analysis of fine fractions. Sediment fractions determined the phi () 'set:ies. Smith-Mcintyre grab samples were taken for sediment analysis from all stations during three cruises in 1973 and 1974 but not at the same time as the initial biological samples. Duplicates (taken on different cruises) were taken for 22 stations and replicate samples from the same grab were treated for most others. Two samples of approximately 100 g were taken from the undisturbed grab contents and frozen. Sediments were treated as follows: 25 g of frozen sediment were soaked in 10% H o overnight to oxidise organic matter, 2 2 washed on filter paper (Whatman No. 50), then wet-sieved on a 62 ~~ (4) sieve in a little less than one litre of water. Material retained on the sieve was dried at 80°C and dry-sieved on a mechanical shaker for 10 min at 1 ·size intervals (-2 to 4 ), using 20 cm diameter sieves conforming to BS 410 (1962). Suspended fine material, if greater than 5% of the total sample, was made up to 1 i and analysed by pipette analysis to provide estimates of cp-interval fractions between 5 and 9,· (see for example, Buchanan and Kain, 1971). Results from the two methods were combined and cumulative percentages by weight calculated for phi-interval classes -2 to +9 and >9 were plotted against grain-size on arithmetic probability paper. Seven percentiles (5, 16, 25, 50, 75, 84, 95) were obtained for the calculation of the following graphic parameters (Folk 1968): (i) Graphic

mean~

a measure of the average grain size.

M _ l6 + 50 + 84 z 3 (ii) Inclusive graphic standard deviation sorting coefficient, a measure of the tendency of the grain population to cluster around the mean grain size.•

= 84 - l6

cr I

4

+ 95 - 5

6.6

10

(iii)

Inclusive graphic

skewness~ a measure of whether there is a relative excess or deficiency of fine material compared to the coarse. Positive skew tail. to right, excess fines. Negative skew- tail to left, excess coarse.

= ~16 + ~84

Sk I

(iv)

- 2

2(~84 ~ ~16)

~50 + ~5 + ~95 2(~95

- 2 ~50 - ~5)

Graphic kurtosis '(peakedness), a measure of the ratio of the sorting in the tails of the distribution to the sorting in the central part of the distribution.

-

~95

-

~5

KG- 2.44(~75 - ~25) In samples with'a high esti~te pf tfie larger cases only M could be median (~50)z is given

proportion of fine material (*9~) no percentiles was possible. In these calculated, or, in some samples the instead (see Appendix VI).

The percentages of sand (8~)

A rough estimation of organic matter was made from a determination of the weight lost by samples (about 25 g) dried at 80°C overnight and then ashed at 400°C for 4 h. The results from this analysis are not considered here although they correlated well with those of the following analyses for carbon. The chromic acid oxidation techniquerwas used to estimate organic carbon following the method outlined by Buchanan and Kain (1971). The amount of carbon is expressed as a percentage of dry sediment weight after oven-drying the treated sediment at 800C for 24 h. Species identification Responsibility for identification of the faqna was divided on a taxonomic basis between the first three authors and is indicated in brackets below. Outside assistance was sought when it was available. Major literature references are given in the following list.

11

Porifera (GP) Hydrozoa (GP).- Specific identifications by J.E. Watson. Anthozoa (GP, RS) Platyhelminthes (RS) Nemertea (SR, RS).- To be revised by R. Gibson in 1975. Priapulida (SR) Nematoda (SR, RS).- Goodey (1963). Bryozoa (SR, GP).- Specific identifications by N.J. Holmes. Phoronida (SR).- Subsequent identifications were made by c. Emig. See Emig, Boesch and Rainer ~in press). Mollusca (GP, SR) Opisthobtanche and chitons. - Identified by R. Burn. See Burn (1974) for discussion of the opisthobranchs. Other gastropods and bivalves. - Identifications confirmed by W. F. Ponder. The major reference was Macpherson and Gabriel (1962) but see Poore and Rainer (1974) for a brief discussion of the systematics of some of the species involved Sipunculoidea and Echiuroidea (GP, SR).- Identifications by S. Edmonds. Polychaeta (SR, RS). -Day (1967), but following Hartman (1959, 1965) for the classification of families and genera; Hartman (1954) for nereids. Ampharetids and terebellids identified by P.A. Hutchings, polynoids and scalibregmids by J. D. Ku~enov. Oligochaeta (SR, RS) Crustacea (GP) Copepoda. - Identified by R. Hamond Mysidacea.- Hale (1929); Dakin and Colefax (1940). Cumacea. -Hale (1944, 1945 and others). Isopoda- Hale (1929); also Menzies (1962) for asellotes anq Barnard (1925) for anthurids. The anthurids are currently ff~{ng studied by one of us (Poore 197 Sa). A new idoteid is also in press (Poore in press). Amphipoda (Gammaridea). - Barnard (1969) and subsequent modifications and additions (Barnard 1972, 1973, 1974). The Phoxocephalidae and Haustoriidae are currently being studied · by M. Drummond with J. L. Barnard.

12

Amphipoda (Caprellidae).- McCain (1968); Mayer (1903). Alpheidae. - Specific determinations by D. M. Banner; see Banner and Banner (1973 and in press). Brachyura.- Hale (1927). confirmed by D.J. G. Griffin.

Specific determinations were

Macrura. -New species currently being described by one of us (Poore 1975b). Pycnogonida (GP).- Specific determinations by W.C. Clark. Echinoderma (GP).- Clark (1966); Shepherd (1968). Ophiuroids identified by A. N. Baker. Hemichordata (SR) Ascidiacea (GP).- Some specific identifications by P. Mather. Pisces (GP).- Specific identifications by I. W. Brown from Scott (1962). RESULTS List of species Appendix II is a summary of the numbers of species in the major taxa and lists the number of species which have been identified to the level of species, genus and family. Only about 40% have specific names and some of these are tentative. Subsequent revisions of the fauna will increase this fraction both from existing literature and by new descriptions. The numbers of species in some groups may change, especially of those least known to us. Systematic experts willing to examine material from Port Phillip Bay are invited to contact the first author. Appendix Ill is an abbreviated list of the 713 species recognised at February 1975 and Appendix IV is the distribution data for all species at 900 series stations taken from the data bank in September 1974. Twenty-nine of the species listed in Appendix Ill were collected only from a special series of grabs from Hobsons Bay, Werribee and Carrum (see MMBW and FWD 1973 for details) and do not appear in Appendix IV. Appendix IV is the form in which the data are being analysed in subsequent papers. Appendix V lists the numbers of species and individuals taken in the five grabs from each station. Station values for

13

the Shannon-Weaver diversity index, H, are also given.

s H

-L: p

i=l

.ln p. 1.-

1.-

for all species where p. is the proportion of individuals in the population represenEed by the ith of s species. The data storage system also allows these parameters to be calculated for individual samples and for cumulative sets of samples, i.e., the first 1, 2, 3, 4 or 5 samples. Sediments Appendix VI lists sediment information for all stations: depth, percentages :1of sand, silt and clay, Shepard ~~~~~ification, Mz, cri, Ski, KG and percentage carbon. Sand:

silt: clay ratios are shown in Figure 5. ACKNOWLEDGMENTS Many individuals in the Marine Pollution Studies Group contributed in one way or another to this program. We would 1 ike to extend special thanks · to tthe J56llowing: Al is tair J. Gilmour, Assistant Director, Marine Pollution Studies, whose encouragement and organisation enabled the program to proceed uninterrupted; our laboratory assistants, who did most of the tedious sorting, in patticular Lynne Barry, Ray Carter, ~an Colquhoun, Merryn Dawes, Roslyn Smith and Carol Viney; our technical assist~nts, for help in the field, especially Nobby Clark, skipper of Melita and Norm Kilpatrick, some-time skipper of Capitella; and Eva. Varnai, who typed this and many other manuscripts so accurately. We also wish to thank the following for their assistance with taxonomy: A. N. Baker, National Museum of New Zealand (ophiuroids); A. H. Banner, Hawaii Institute of Marine Biology, Hawaii (alpheids); I. W. Brown, FWD (fish); R. Burn, National Museum of Victoria (opisthobranchs and chtions);· W. C. Clark, Department of Zoology, University of Canterbury, N.Z. (pycnogonids); M. Drummond, FWD (phoxocephalid amphipods); s. Edmonds, Department of Zoology, University of Adelaide

14

clay

1

• se

0

Fig.5. Triangular graph of sand:silt:clay percentages from 85 stations. The dense triangle represents 18 stations with more than 98% sand. (s=sand, z=silt, c=clay).

15

(echiuroids and sj.puncu16d.d..S~~ . C. Emig, Station Marine d'Endoume, Marseille, France, (phoronids); D.J.G. Griffin, Australian Museum (brachyurans); N.J. Holmes, FWD (bryozoans); R. Hamond, C/o Melbourne University (copepods); P. Hutchings, Australian Museum (some polychaetes); J.D. Kudenov, FWD (some polychaetes); W. Ponder, Australian Museum (molluscs); P. Mather, Queensland Museum (tunicates); and J.E. Watson, National Museum of Victoria (hydroids). Other individuals have offered assistance with other taxonomic groups. · This work was undertak~n as part of the Port Phillip Bay Environmental Study, a joint project of the Melbourne and Metropolitan :&lard of Works and the Fisheries and Wildlife Division of the Ministry for Conservation of Victoria. REFERENCES Banner, D.M. and Banner, A.H. (1973). The alpheid shrimp of Australia. Part I: The lower genera. Rec. Aust. Mus. 28: 291-382. Banner, D.M. and Banner, A.H. in press. The alpheid shrimp of Australia. Part III: AZpheus. Rec. Aust. Mus. Barnard, J.L. (1969). The families and genera of marine gammaridean Arnphipoda. BuZZ. U.S. natn. Mus. 271: 1-535. Barnard, J.L. Part I.

(1972). Gammaridean Amphipoda of Autralia, Srn.ithson. Contr. Zoo Z. 103: 1-333.

Barnard, J.L. (1973). Revision of Corophiidae and related families (Amphipoda). Smithson. Contr. Zool. 151: 1-27. Barnard, J.L. (1974). Gammaridean Amphipoda of Australia, Part II. Smithson. Contr. ZooZ. 139: 1-148. Barnard, K.H. (19Z5). A revision of the family Anthuridae (Crustacea Isopoda), with remarks on certain morphological peculiarities. J. Linn. Soc. 36: 109-60.

16

Beasley, A.W. (1966). Port Phillip survey 1957-63. sediments. Mem. natn. Mus. Vict. 27: 69-106.

Bottom

Bowler, J.M. (1966). Port Phillip Survey 1957-63. Geology and geomorphology. Mem. natn. Mus. Vict. 27: 19-68. Brett, C.E. (1964). A portable hydraulic diver operated dredge-sieve for sampling subtidal macrofauna. J. mar. Res. 22: 205-9. 'uchanan, J.B. and Kain, J.M. (1971). Measurement of the physical·and chemical environment. pp.30A58 in "Methods for the study of Marine Benthos" eds: N. A. Holme and A.D. Mcintyre, IBP Handbook 16. Burn, R. (1974). Notes on some benthonic opisthobranchs from Port· Phillip Bay, Victoria, J. mal.ac. Soc. Aust. 3: 43-57. Clark, A.M. (1966). Echinodermata.

Port Phillip Survey 1957-63.

Mem. natn. Mus. Vie. 27: 289-356.

Dakin, W.J. and Colefax, A.N. (1940l. The plankton of the Australian coastal waters off New South Wales I. Univ. Sydney ZooZ.. Monogr. 1: 1-215. Day, J.H.

(1967).

Polychaeta of Southern Africa, Parts 1, 2.

Br. Mus. nat. Hist. PubZ.s. 656: viii, 878 p. Emig,

c.,

Boesch, D.F. and Rainer, S.F. in press. from Australia. Rec. Aust. MUs.

Phoronida

Folk, R.L. (1968). "Petrology of Sedimentary Rock". 170 p. Hemphills: Austin. Goodey, T. (1963). "Soil and Freshwater Nematodes". Second edition revised by J.B. Goodey. 545p. Methuen: London. Hale, H.M. (1927, 1929). Parts 1, 2. 380 p.

"The crustaceans of South Australia". Govt Printer: Adelaide.

Hale, H.M. (1944). Austr~lian Cumacea. No. 8. The family Bodotriidae. Tr'ans. R. Soc. S. ·Aust. 68: 225-85. 17

· Hale, H.M. (1945). Australian Cumacea. No. 11. The Family Diastylidae (Part 1). Trans. R. Soa. S. Aust. 69: 173-211.. Hale, H.M. (1946) •. Australian Cumacea. No. 12. The family Diastylidae (Part 2) Gynodiastylis and related genera. Rea. S. Aust. MUs. 8: 357-444. Hartman, O. (1954). Australian.Nereidae. Including descriptions of three new species and one genus, together with summaries of previous records and keys to species. Trans. R. Soa. S. Aust. 77: 1-41. Hartman, 0. (1959). Catalogue of the polychaetous annelids of the world. Parts r, II. Oca. Pap. AZZan Hanaoak Fdn 23: 1-628. Hartman, 0. (1965). Catalogue of the polychaetous annelids of the world. Supplement 1960-1965 and index. Oca. Pap. AZZan Hanaoak Fdn 23: 1-197. Lie, U. (1968). A quantitative study of the benthic infauna in Puget Sound, Washington, U.S.A., in 1963-1964. FiskDir. Sk:r. Ser. HavUnders. 14: 229-556. Macpherson, J.H. and Gabriel, C.J. (1962). "Marine Molluscs of Victoria". Natn. Mus. Viat. Handb.2. 475 p. Mayer, P.

(1903).

Siboga Exped.

Die Caprellidae der Siboga - Expedition. 34: 1-160.

Menzies, R.J. (19~2). The isopods of abyssal depths in the Atlantic Ocean. Vema Res. Ser. 1: 79-206. MMBW and FWD. (1973). "Environmental Study of Port Phillip Bay, Report on Phase One, ··1968-1971." 37 2p. Melbourne and Metropolitan Board of Works and Fisheries and Wildlife Department of Victoria: Melbourne. McCain, J.C. (1968). The Caprellidae (Crustacea : Amphipoda) of the western North Atlantic. BuZZ. U.S·. natn. Mus. 278: 1-147. Poore, G.C.B. (1975a) Australian species of HaZiophasma (Crustacea: Isopoda: Anthuridae). Rea. Aust. Mus. 29(19). 18

Poore, G.C.B.

(1975b).

Systematics and distribution of

Callianassa (Crustacea: Decapoda: Macrura) from Port Phillip.Bay, Australia, with descriptions of two new species. Pacif. Sci. 29(2). Poore, G.C.B. in press. Austrochae:ti'Lia capeZi, a new genus and species of chaetiline idoteid (Isopoda) from Port Phillip Bay, Australia. Crustaceana • . Poore, G.C.B. and Rainer, S. (1974). Distribution and abundance of soft-bottom molluscs in Port Phillip Bay, Victoria, Australia. Aust. J. mar. FreshJ.JJat. Res. 25: 371-411. Rochford, D.J.

(1966).

Port Phillip survey 1957-63. 27: 107-18.

Hydrology.

Mem. natn. MUs. Vict.

Scott, T .D. (1962). "The Marine and Freshwater Fishes of · South Australia". 338 p. Govt Printer: Adelaide. Shepard, F .P. ratios.

(1954).

Nomenclature based on sand-silt-clay 24: 151-58.

J. sedim. Petrol.

Shepherd, S.A. (1968). The shallow water echinoderm fauna of South Australia. Part 1: The asteroids. Rec. S. Aust. MUs. 15: 729-56. Smith, W. and Mclntyre, A.D. (1954). A spring-loaded bottom sampler. J. mar. biol. Ass. U.K. 33: 257-264. Stephenson, W., Williams, W.T. and Lance, G.N. (19f,O). The macrobenthos of Moreton Bay. Ecol. Monogr. 40: 459-94. Thorson, G. (1957). Bottom.communities (sublittoral or shallow shelf). Mem. geol. Soc. Am. 67: 461-534. Wolff,W.J. (1973). The estuary as a habitat. An analysis of data on the soft-bottom macrofauna of the estuarine area of the rivers Rhine, Meuse, and Scheldt. Zool. Verh. 126: 1-242.

19

APPENDIX I.

Date of sampling and sampling gear used*

Station

901 902

Station

Date

Station

Date

930

11 Feb 70

960

16 Feb 71

7 Jun 71

931

18 Feb 71

961

13 Oct 71

21 Sep 70

932

10 Feb 70

962

21 Sep 70

Feb 71

933

13 Feb 70

963

3 Dec 70

904

7 Jun 71

934

14 Feb 70

964

21 Sep 70

905

8 Jun 71

935

13 Feb 70

965

8 Sep 71

906

21 Oct 69

936

10 Feb 70

966*

23 Jan 73

907

3 Feb 72

937

12 Feb 70

967

16 Feb 71

908

8 Jun 71

938

10 Feb 70

968*

13 Oct 71

909

3 Dec 70

939

18 Feb 71

969

12 Feb 70

910

17 Oct 69

940

12 Feb 70

970

14 Oct 71

911

9 Jun 71

941

12 Feb 70

971

11 Feb 70

912

19 Nov 71

942

12 Feb 70

972

11 Oct 71

913

10 Jun 71

943

12 Feb 70

973

17 Feb 71

974

13 Oct 71 23 Jan 73

903

\

Date

~18

914

9 Jun 71

944

10 Jun 71

915

10 Feb 70

945*

16 Nov 71

975*

916

25 Sep 70

946

21 Sep 70

976

8 Dec 71

917

21 Oct 69

947

3 Dec 70

977

21 Sep 70

918

23 Aug 71

948

21 Sep 70

978

12 Oct 71

919

18 Nov 71

949

4 Dec 70

979

17 Feb 71

920

19 Nov 71

• 950

21 Sep 70

980

12 Oct 71 12 Oct 71

921

10 Jun 71

951

8 Sep 71

981

922

10 Jun 71

952

11 Jun 71

982

22 Sep 70

923

3 Dec }0

953

11 Jun 71

983 984

11 Oct 71 17 Feb 71

924

21 Sep 70

954

11 Feb 70

925

4 Dec 70

955

9 Feb 72

985*

9 Dec 71

926

22 Sep 70

956

14 Feb 70

986

12 Oct 71

927

957

21 Sep 70

928

** 2 Nov 72

958

13 Feb 70

929

11 Jun 71

959

8 Sep 71

* Stations thus marked were sampled with a venturi sampler; all others with a Smith-Mclntyre grab. **Station 927 was sampled twice; 4 Dec 1970 and 23 Aug 1971.

20

APPEND IX I I.

State of identification of species of Port Phillip Bay benthic , .. fauna, February 1975

Number uf species identified to level of: Species

Porifera Coelenterata

Hydrozoa Anthozoa

Platyhelminthes Nemertina Priapulida Nematoda .Bryozoa Phoronida Mollusca Polyplacophora Gastropoda Bivalvia Cephalopoda Sipunculoidea Echiuroidea Polychaeta Oligochaeta Crustacea Ostracoda Copepoda Cirripedia Mysidacea Nebaliacea Cumacea Tanaidacea Isopoda Amphipoda Stomatopoda Natantia Anomura Macrura Brachyura Pycnogonida Echinoderma Asteroidea Ophiuroidea Echinoidea Ho1othuroidea Hemichordata Ascidiacea Pisces

Genus

Family

1 1 1

3 1

3 3 8 37 49 1

1 1

23

5 3

1

Higher level 6 1 8 3 12 1 2

1

3 1 59

162

12 2

9

11

2 2 3 1 9 1 16 28 2 6 3 4

4

2

3 5 17 57

1 1 4 38

1 1

1 1 1

2

2 4 6 3 5

1

6 13

1 1

1

1 2 1

TOTAL

290

281

100

42

Per cent

40.6

39.5

14.0

5.9

21

7 5 10 3 12 1 26 3 3 8 43 53 1 3 1 233 2 20 2 2 9 1 13

2

3

11

TOTAL

9 37 123 2 8 5 7 12 5 4 7 3 5 1 9 15 713

..

''

·

:.

APPENDIX III. Summarised list of species. The number of species is given in brackets after each taxon for which more than one species has been recorded. Details of species names used is given in Appendix IV with data records. Family names are given when known. PHYLUM PORIFERA cf.

Tethya sp.

Tethyidae

Tetractinomorpha sp. Ceractinomorpha (4 spp) hexactinellid sp. PHYLUM COELENTERATA Class Hydrozoa

Carrrpanularia sp. Obelia australis von Lendenfeld, 1885 Plumularia setaceoides Bate, 1882 Tubularia larynx Ellis & Solander, 1768

Campanulariidae 11

Plumulariidae Tubulariidae

hydrozoan sp. Class Anthozoa

Edwardsia sp. Virgularia loveni Kolliker, 1870

Edwardsiidae Virgulariidae

anthozoan (7 spp) cf. alcyonarian sp. PHYLUM PLATYHELMINTHES turbellarian (3 spp) PHYLUM NEMERTEA palaeonemertean (2 spp) heteronemertean (7 spp) hoplonemertean (3 spp) PHYLUM ASCHELMINTHES Class Priapulida priapulid sp. Class Nematoda monhysterid (2 spp)

Monhysteridae

Sphaero lairrrus sp.

Linhomoeidae

cyatholaimid (2 spp)

Cyatholaimidae

microlaimid sp.

Microlaimidae

22

Nematoda (cont.) enoplid (4 spp)

Enoplidae

enopline (2 spp)

"

oxystomine sp. oncholaimine (6 spp)

Oncholaimidae

eurystominine sp. tripylid (2 spp)

Tripylidae

mononchid (2 spp)

Mononchidae

nematode (2 spp) PHYLUM BRYOZOA

Amathia convoluta Lamouroux, 1816

Vesiculariidae

Bugula cf. fulva Ryland, 1960 Scrupocellaria scruposa (Linnaeus, 1758)

Farciminariidae Scrupocellariidae

PHYLUM PHORONIDA

Phoronis psammophila Cori, 1889 P. pallida (Schneider, 1862) Phoronopsis albomaculata Gilchrist, 1907 PHYLUM MOLLUSCA Class Amphineura

Lepidopleurus.matthewsianus (Bednal, 1906)

Lepidopleuridae

Subterenochiton gabrieli (Hull, 1912)

Subterenochitonidae

Acanthochitona gatliffi (Ashby, 1919) A. granostriata (~ilsbry, 1894) A. pilsbryi (Sykes, 1896) Ischnochiton atkinsoni Iredale & May, 1916 I. variegatus (H. Adams & Angas, 1864) Rhyssoplax tricostalis (Pisbry, 1894)

Acanthochitonidae

Ischnochitonidae Chitonidae

Class Gastropoda

Amblychilepas omicron (Crosse

&FiEcher,

1864)

Amblychilepas sp. Actinoleuca calamus (Crosse & Fischer, 1864) Clanculus Zimbatus (Quoy & Gaimard, 1834) C. plebejus (Philippi, 1851)

Fissurellidae Acmaeidae Trochidae

Ethminolia tasmanica (Tenison Woods, 1877) Phasianotrochus irisodontes (Quoy & Gaimard, 1834) Micrastraea aurea (Jones, 1844)

23

Turbinidae

Gastropoda (cont.)

Munditia hedleyi (Pritchard & Gatliff, 1899) Badepigrus petterdi (Brazier, 1894) Nozeba sp. Caeozeliana granaria (Kiener, 1842) Diala pagodula (A. Adams, 1862) D. semistriata (Philippi, 1836) Sigapatella calyptraeformis (Lamarck, 1822) Ectosinum zonale (Quoy & Gaimard, 1833) Glossaulax aulacoglossa (Pilsbry & Vanatta, 1908) Sigaretotrema umbilicata (Quoy & Gaimard, 1833) Bedeva paivae (Crosse, 1864) Pterynotus triformis (Reeve, 1845) Dentimitrella (2 spp) Nassarius burchardi (Philippi, 1851) N. nigellus (Reeve, 1854) N. pauperus (Gould, 1850) N. pyrrhus (Menke, 1843) Cominella eburnea (Reeve, 1846)

Liotiidae Rissoidae Cerithiidae

" " Calyptraeidae Naticidae

" " " " Columbellidae Nassariidae

" " Buccinidae

buccinid sp.

Austroginella johnstoni (Petterd 1 1884) Guraleus sp. Conus anemone Lamarck, 1810 Chemnitzea mariae (Tenison Woods, 1876) Pyrgiscus fuscus (A. Adams, 1853) Austrocylichna exigua (A. Adams, 1854) Haminoea maugeansis Burn, 1966 Liloa brevis (Quoy & Gaimard, 1833) Retusa pelyx Burn, 1974 Philine angasi (Crosse & Fischer, 1864) Aglaja queritor Burn, 1957 A. taronga Allan, 1933 Cerberilla incola Burn, 1974 DoPis cameroni (Allan, 1947) Ercolania margaritae Burn, 1974

24

Marginellidae Turridae Conidae Pyramidellidae

" Scaphandridae Atysidae

" Retusidae Philinidae Aglajidae

" Aeolidiidae Dorididae. · Stiligeridae

Class Bivalvia

LeionueuZa obZiqua (Lamarck, 1819) PronueuZa eoneentriea Cotton, 1930 P. hedZeyi Pritchard & Gatliff, 1904 SoZemya austraZis (Lamarck, 1818) Anadara trapezia (Deshayes, 1840) Barbatia squamosa (Lamarck, 1819) Gregarie Ua barbata (Reeve, c1858) Modiolus aZbieostus (Lamarck, 1819) MuseuZus uZmus .(Iredale, 1936) MytiZus eduZis pZanuZatus (Lamarck, 1819) EZeetroma georgiana (Quoy & Gaimard, 1835) Pecten aZba Tate, 1886 Ostrea angasi Sowerby, 1871 Cuna eoneentriea Hedley, 1902 BenthoeardieZZa ehapmani (Gatcliff & Gabriel, 1912) RadioeondyZa cf. peetinata (Tate & May 1900) Cyamium maetroides Tate & May, 1900 C. baZaustina Gould, 1861 WaZZueina assimiZis (Angas, 1867) DipZodonta gZobuZaris (Lamarck, 1818) MeUiteryx cf. aeupunetum (Hedley, 1902) Montaeuta semiradiata (Tate, 1889) MyseUa (2 spp) FuZvia tenuieostata (Lamarck, 1819) Nemoeardiumthetidis (Hedley, 1902) Venerieardia,bimaeuZata (Deshayes, 1852) Dosinia eireinaria Deshayes, 1853 NotoeaZZista kingi (Gray, 1827) Chioneryx eardioides (Lamarck, 1818) CaZJanaitis disjeeta (Perry, 1811) KateZysia rhytiphora (Lamy, 1937) cf. KateZysia sp. PuZZastra fabageZZa (Deshayes, 1853) Tawera gaUinuZa (Lamarck, .1818) EZeetromaetra anteeedens Iredale, 1930 Nannomaetra jaeksonensis (Smith, 1885) NotospisuZa trigoneZZa (Lamarck, 1818) Mesodesma eZongata (Deshayes, 1854)

25

Nuculidae 11

" Solemyidae Arcidae Mytilidae 11

11

Pteriidae Pectinidae Ostreidae Crassatellidae Condylocardiidae 11

Cyamiidae 11

Lucinidae Ungulinidae Erycinidae Montacutidae 11

Cardiidae Carditidae Veneridae 11

11

11

Mactridae 11

11

Mesodesmatidae

Biva1via (cont.)

SoZeteZZina donaaioides Reeve, 1857 Theora fragiZis (A. Adams, 1855) Maaomona deZtoidaZis (Lamarck, 1818) M. mariae (Tenison Woods, 1876) TeZZina aZbineZZa Lamarck, 1818 SoZen vaginoides Lamarck, 1818 Anisodonta subaZata (Catcliff & Gabriel, 1910) Gastroahaena tasmaniaa Tenison Woods, 1876 MYadora brevis (Sowerby, 1829) Thraaia ZinaoZnensis Verco, 1907 T. modesta Angas, 1867 LaternuZa areaaina (Reeve, 1860) Offadesma angasi (Crosse & Fischer, 1864)

Sanguinolariidae Semelidae Tellinidae 11

11

Solenidae Sportellidae Gastrochaenidae Myochamidae Thraciidae 11

Laternulidae

bivalve sp. Class Cephalopoda

Oatopus superaiZiosus Quoy & Gaimard, 1832

Octopodidae

PHYLUM SIPUNCULOIDEA

Phasao Zion sp. Themiste (2 spp)

Golfingiidae

PHYLUM ECHIUROIDEA

AneZassorhynahus adeZaidensis Edmonds, 1960

Echiuridae

PI:f{LUM ANNELIDA Class Polychaeta

ArabeZZa iriaoZor iriaoZor (Montagu, 1804) ArabeZZa sp. DriZonereis sp. Notoairrus sp. PaZeanotus ahrysoZepis Schmarda, 1861 DorviZZea austraZiensis (Mcintosh 1885) Dorvi ZZea sp. ProtodorviZZea cf. biartiauZata Day, 1963 Euniae antennata (Savigny, 1820) PaZoZa siaiZiensis (Grube, 1840) Lysidiae sp.

Arabellidae 11 11

Chrysopetalidae Dorvilleidae 11

11

Eunicidae 11

11

Marphysa (2 spp) Nematonereis sp.

11

eunicid sp.

11

11

26

Polychaeta (cont.)

Glycera americana Leidy, 1855 G. capitata Oersted, 1843 Glycinde sp. Goniada sp. Gyptis sp. Microphthalmus sp. Nerimyra (2 spp)

Glyceridae 11

Goniadidae Hesionidae

11

hesionid sp.

Lumbrineris latreilli Audouin & Milne Edwards, 1834 Oenone sp. Nephtys (2 spp)

Lumbrineridae

Australonereis sp. Ceratocephale sp. Ceratonereis erythraeensis Fauvel, 1918 C. cf. mirabilis Kinberg, 1866 Eunereis (2 spp)

Nereidae

cf.

Lysaretidae Nephtyidae

11

11

Eunereis sp.

cf . Laeonereis sp.

11

Micronereis sp. Neanthes (3 spp) Nereis cf. jacksoni Kinberg, 1866 Nereis sp. Platynereis dumerili (Audouin & Milne Edwards, 1833)

11

11

nereid (2 spp)

Onuphis sp. Nothria holobranchiata (Marenzeller, 1879) Anaitides longipes (Kinberg, 1866) Eteone (2 spp) cf. Eteone sp.

Onuphidae 11

Phyllodocidae

Eulalia sp. Eumida sp.

11

GenetyUis sp. Mystides sp.

11

Paranai tis sp. pilargiid sp.

Pilargiidae

Eunoe sp. Harmothoe spinosaKinberg, 1855 Malmgrenia phillipensisKnox & Cameron, 1971

Polynoidae

Ma lmgrenia sp.

11

11

11

27

Polychaeta (cont.)

Paralepidonotus ampuUiferus (Grubc, 1878) Sigalion sp. Sphaerodoridiwn sp.

Po1ynoidae Sigalionidae Sphaerodoridae

sphaerodorid sp.

Autolytus sp. Eusyllis breviciPPataKnox & Cameron, 1971 PionosyUis (3 spp) Streptosyllis (3 spp) SyUides longocirrata Oersted, 1845 SyUides sp.

Syllidae 11

11

cf. exogonine sp.

Brania rhopalophora (Ehlers, 1897) Exogone gemmifera Pagenstecher, 1862 Exogone ( 7 spp) SphaerosyUis cf. serrriverr>ucosa Ehlers, 1913

11

11

11

Sphaerosyllis (6 spp)

11

Haplosyllis cf. spongicola Grube, L855 Langerhansia cornuta (Rathke, 1843) Opisthosyllis (2 spp) Syllis cf. gracilis Grube, 1840 SyUis (5 spp) Typosyllis cf. hyalina (Grube, 1863) Typosyllis (2 spp)

11

Trypanosyllis zebra (Grube, 1860) Trypanosyllis sp. Isolqa pulchella Muller, 1858 Neosabellides sp. SamytheUa sp.

11

11 11

11 11

11 11

Ampharetidae 11 11

ampharetid sp.

Branchiomaldane sp. BarantoUa sp. Capitella sp. Capitellethus dispar (Ehlers, 1907) Dasybranchus sp. Heteromastides sp. Heteromastus sp. Leiochrides sp.

28

Arenicolidae Capitellidae 11

11

11

11

Polychaeta (cont.)

Mediomastus sp. Notomastus (3 spp) PuUieUa sp. Sayphoproatus sp.

Capitellidae 11 11 11 11

capitellid (2 spp)

Chaetopterus variopedatus Renier, 1854 PhyZZoahaetopterus soaiaZis Claparede, 1870 CauZZerieZZa bioauZata (Keferstein, 1862) CauZZerieZZa (4 spp) Chaetozone sp. CirratuZus sp. cf. CirratuZus sp. Cirriformia fiZigera (delle Chiaje, 1828) Cirriformia (2 spp) Dodeaaaeria (2 spp) Tharyx ( 4 spp) CossuY'a sp. DipZoairrus sp. FZabeUigera sp. Pherusa sp. MageZona (4 spp) Asyahis glabra Knox & Cameron, 1971 AxiotheZZa sp. PetaZoproatus terriaoZa Quatrefages, 1865 PraxiZZeZZa sp. Rhodine sp. Armandia (3 spp) OpheZia sp.

PoZyophthaZmus piatus (Dujardin, 1839) Travisia forbesi Johnston, 1840 HapZosaoZopZos sp. Naineris sp. SaoZariaia sp. SaoZopZos sp. MyrioaheZe sp. OWenia fusiformis delle Chiaje, 1844 Aediairea sp.

29

Chaetopteridae

" Cirratulidae 11

"

" "

" Cossuridae Flabelligeridae

" Magelonidae Maldanidae

" " " " Opheliidae

" " Orbiniidae 11

11

Oweniidae

" Paraonidae

Polychaeta (cont.) A~icidea

fauveli Hartman, 1957 A. suecica cf. simplex Day, 1963 Pa~aonides

Paraonedae

"

(2 spp)

P~aonis g~acilis g~acilis

(Tauber~

1879)

"

Pectin~ia

antipoda Schmarda, 1861

Pectinariidae

Amphiglena

medite~~anea

Sabellidae

B~anchiorrorza

(Leydig, 1851)

" "

sp.

cf. Desdemona sp. Fab~icia

sp.

Megalorrorza sp. Myxicola infundibulum (Renier, 1804) PseuodopotamiUa cf. ~enifo~is (Linnaeus, 1788) Ascle~ocheilus Dexiospi~a

Serpulidae

~alumianus

Eupomatus

Scalibregmidae

sp.

sp.

Pa~alaeospi~a

" " "

(Augener, 1927)

patagonicus Caullery & Mesnil, 1897

Pomatoce~os te~~aenovae

Benham, 1927

" "

serpulid sp.

Aonides oxycephala (Sars, 1862) Bocc~dia

Spionidae

"

sp.

Laonice (2 spp) Ma Zacoce~os sp. Polydo~a

(11 spp)

P~ionospio

(6 spp)

Pseudopolydo~a

kempi (Southern, 1921)

Spio sp. Amaeana t~ilobata (Sars, 1863) Amphit~ite ~ub~a

Terebellidae

(Risso, 1828)

A~tacamella dib~anchiata

Knox & Cameron, 1971

Eupolymnia nebulosa (Montagu, 1818) cf. HauchielZa sp. Lanassa sp. cf. Lysi Ua sp. Pista c~istata (Muller, 1776) P. typha Grube, 1878 Polyci~~us P~oclea

" "

" " " " " " "

sp.

"

(2 spp)

Thelepus setosus (Quatrefages, 1865)

"

cf. Thelepus sp.

30

Po1ychaeta (cont.)

Terebellides stroemi Sars, 1835

Trichobranchidae

" "

Trichobranchus sp. trichobranchid sp.

Trochochaetidae

Poecilochaetus sp. Class Oligochaeta enchytraeid sp.

Enchytraeidae

tubificid sp.

Tubificidae

PHYLUM ARTHROPODA Class Crustacea S.Cl. Ostracoda

Ponticocythereis sp.

Cytheridae

cytherid (2 spp)

11

Cycloleberis sp. CyZindroZeberis sp. cf. Synasterope (2 spp) Cypridinodes sp.

Cylindroleberididae 11 11

Cypridinidae

cypridinid (3 spp)

EuphiZomedes (2 spp)

Philomedidae

philomedid (5 spp) Rutiderma sp.

Rutidermatidae

sarsiellid sp.

Sarsiellidae

S. Cl. Copepoda canuellid sp.

Canuellidae

cancerillid sp.

Cancerillidae

S. Cl. Cirripedia Balanus variegatus Darwin, 1854

Balanidae

Elminius modestus Darwin, 1854 S.C1 Malacostraca 0. Mysidacea

Afromysis austraZiensis Tattersall, 1940 AustraZomysis incisa Sars Gastrosaccus (2 spp) Heteromysis (2 spp) SirieZZa vincenti Tattersall

Mysidae

11

11

mysid (2 spp)

31

0. Nebaliacea

Nebalia longiaornis Thomson

Nebaliidae

0. Cum.acea

Eudorella sp. Hemileuaon levis Hale, 1945 Gephyroauma pala Hale, 1936 Glyphoauma bakeri Hale, 1936 Pomaauma australiae Zimmer, 1921 bodotriid sp.

Leuconidae

" Bodotriidae

" "

Anahistylis longipes Hale, 1945 Diaoides fletti Hale, 1946 Dimorphostylis aottoni Hale, 1936 Gynodiastylis ambigua Hale, 1946 G. aonaava Hale, 1946 Gynoldiastylis (2 spp)

Diastylidae

" " "

0. Tanaidacea

Apseudes

(3 spp)

apseudid sp.

Paratanais sp. Leptoahe lia sp. Pagurapseudes sp. tanaid (2 spp) 0. Isopoda

Ianiropsis sp. Jaeropsis sp. Munna sp.

Munnidae

nannoniscid sp.

Nannoniscidae

Ianiridae Jaeropsidae ··

Stenetrium sp. AstaaiUa sp. Crabyzos longiaaudatus Spence Bate Euidotea striata Dana chaefilinae (n.g. and n.sp., see Poore, inpress) Apanthura (2 spp) Eisothistos sp. Haliophasma aanale Poore, 1975. H. ayneum Poore, 1975. H. yarra Poore, 1975. Mesanthura maaulata Haswe11, 1881.

32

Stenetriidae Arcturidae Idoteidae

Anthuridae

"

Iso~oda

(cont.)

Leptanthura cf. diemenensis Haswell, 1884 Leptanthura (4 spp) Paranthura cf. ciZiata Whitelegge, 1901

Paranthuridae 11 11

paranthurid sp.

SeroUs minuta Beddard, 1884 S. tubercuZata Grube, 1875 CiroZana corpuZenta

Serolidae Cirolanidae

C. woodjonesi Hale, 1924 Eurydice sp. Limnoria sp.

11 11

Limnoriidae

Cerceis acuticaudata Haswell, 1881 CiZicaea ZatreiZZei Leach Cymodoce coronata Haswell, 1881 C. Zongicaudata Baker, 1908 Cymodoce sp. Exosphaeroma (2 spp)

Sphaeromatida~ 11 11 11 11 11

sphaeromatid sp. 0. Amphipoda

Cypsiphimedia sp.

Acanthonotozomatidae

acanthonotozomatid,(2 spp)

AmpeZisca aequicornis Bruzelius, 1859 AmpeZisca (2 spp) BybZis sp.

Ampeliscidae

amphilochid sp.

Amphilochidae

Ampithoe (2 spp) Cymadusa sp. Anamixis sp. AmpeZisciphotis sp.

Ampithoidae

11 11

11

Anamixidae Corophiidae

Aora sp. Corophium sp. Photis sp. Siphonoecetes sp.

11

Xenocheira fasciata Haswell, 1879 isaeid (2 spp) corophiid sp. calliopid sp.

Calliop:i,dae

Paradexamine churinga Barnard, 1972

Deximinidae

P. dandaZoo Barnard, 1972

33

Amphipoda (cont.)

P. lanacoura Barnard, 1972 P. moorhous~ Sheard, 1938 P. thadalee Barnard, 1972 Paradeximine sp.: Tethygeneia sp •.

Dexaminidae

"

" " Eusiridae

"

pontogeneiid sp-;

Ceradocus rubromaculatus Stimpson, 1855 C. serratus Bate, 1862 Cottesloe berringar Barnard, 1974 Elasmopus _(2 spp) Maera mastersi ~aswell, 1880 Maera sp.· Mallacoota diemenensis Haswell, 1880 Nuuanu numbadi·Barnard, 1974

Gammaridae

" 11

11

gammarid (7 spp) Haustoriidae

Platyichnopus sp. Urohaustorius, .sp. haustoriid sp.

Allorchestes .compressa Dana, 1852 Ericthonius sp. Jassa sp;

Hyalidae Ischyroceridae 11 11

ischyrocer.id sp.

Leucothoe assimilis Barnard 1974 L. commensalis Haswell, 1880 Paraleucothoe novaehollandiae Haswell, 1880

Leucothoidae

Liljeborgia (3 spp)

Liljeborgiidae

Amaryllis macraphthalma Haswell, 1880 Endeavoura mirabilis Chilton, 1921 Euonyx sp.

Lysianassidae

11

Hippomedon cf. denticulatus Bate, 1857 cf. Orchomene sp.

11

Parawaldeckia sp. Waldeckia sp.

11

11

cypho~rid sp.

11

A

lysianassid (12 spp)

Oediceroides sp.

Oedicerotidae

pedicerotid (4 spp)

11

Metaphoxus sp.

Phoxocephalidae

Paraphoxus pinquis (Haswell, 1880)

34

Amphipoda cont.)

P. tattersaZZi Barnard, 1957 Paraphoxus (19 spp)

Phox6cephalidae

"

phoxocephalid (3 spp)

Seba sp. Synopia sp. Tiron sp.

Sebidae Synopiidae

synopiid sp.

Hyperia sp. Caprella equilibra Say, 1818

Hyperiidae Caprellidae

C. penantis Leach, 1814 C. septentrionalis Kroyer, 1838

"

Metaprotella haswelliana Mayer, 1882 MetaproteUa sp. Paracaprella alata Mayer, 1903 Paraproto spinosa Haswell, 1885 Pseudoprotomima sp.

" " "

0. Stomatopoda

Austrosquilla osculans (Hale, 1924) SquiZZa miles Hess, 1865

Lysiosquillidae Squillidae

0. Decapoda

S.O. Natantia Sect. Penaeidea

Lucifer hanseni Borradaile

Sergestidae

penaeid sp. (Juv) Sect. Car idea

Athanopsis sp. Alpheus euphrosyne de Man, 1897 A. novaezelandiae Miers, 1884 Pontophilus intermedius Spence Bate Macrobrachium intermedium Stimpson Hippolyte tenuirostris Spence Bate

Alpheidae

" Crangonidae Palaemonidae Hippolytidae

S.O. Reptantia Sect. Anomura

Paguristes brevirostris Baker P. sulcatus Baker

Paguridae

" "

pagurid sp.

35

Anomura (cont.} 11

PoZyonyx transversus (Haswell)

Porcellanidae

anomuran sp. (Juv) Sect. Brachyura

EbaZia intermedia Miers, 1886 PhiZyra undecimspinosa Kinahan, 1856 Notomithrax minor Filhol, 1885 HaZicarcinus ovatus Stimpson, 1858 H. rostratus Haswell, 1882 Macropipus corrugatus Pennant, 17/7 Nectocarcinus integrifrons Latreille, 1825 HeteropiZumnus fimbriatus Milne Edwards, 1834 Litocheira bispinosa Kinahan, 1856 Pinnotheres pisum Pennant, 1777 Brachynotus spinosus Milne Edward,;;

Leucosiidae 11

Majidae Hymenosomatidae 11

Portunidae 11

Xanthidae Goneplacidae Pinnotheridae Grapsidae

megalopa sp. Sect. Macrura

Axiopsis sp. CaZZianassa aequimana Baker, 1907 C. austraZiensis (Dana, 1852) C. ceramica Fulton & Grant, 1906 CaZZianassa (2 n. spp, see Poore, 1975b) Upogebia sp.

Axiidae Callianassidae

11

Upogebiidae

Class Pycnogonida

AmmotheZZa sp. Ascorhynchus ZongicoZZis Haswell, 1884

Anmtotheidae 11

11

ammotheid sp.

ParapaZZene obtusirostris Clark, 1963 AnopZodactyZus sp.

Callipallenidae Phoxichilidiidae

?HYLUM ECHINODERMATA Class Asteroidea

AZZostichaster poZypZax Muller & Troschal, 1844 Coscinasterias caZamaria Gray, 1840 PatirieZZa gunni Gray, 1840 Tosia austraZis Gray, 1840

36

Asteriidae 11

Asterinidae Goniasteriidae

Class Holothuroidea

Paracaudina austraZis Semper, 1868 Pentacta austraZis Ludwig, 1875 Trochodota aZZani Joshua, 1912 Stichopus moZZis Hutton, 1872 Leptosynapta doZabrifera Stimpson, 1855

Caudinidae Cucumariidae Chiridotidae Stichopidae Synaptidae

Class Echinoidea

Echinocyamus pZatytatus Clark, 1914 Echinocardium cordatum Pennant, 1777 AmbZypneustes ovum Lamarck, 1816

Fibulariidae Loveniidae Temnopleuridae

Class Ophiuroidea

AmphiphoZis squamata (delle Chaije, 1828) Amphiura constricta Lyman, 1879 A. eZandiformis Clark, 1966 A. parviscutata Clark, 1966 A. poeciZa H. L. Clark, 1915 Amphiura sp. Ophiocentrus piZosus Lyman, 1879

Amphiuridae

" " " " "

PHYLUM CHORDATA S.Ph. Hemichordata enteropneust sp. S.Ph. Urochordata Class Ascidiacea

Ascidia gemmata Sluiter, 1895 A. sydneyensis Stimpson, 1885 MoZguZa sabuZosa Quoy & Gaimard, 1834 Sycozoa peduncuZata Pyura Zepidoderma P. stoZonifera Heller, 1878 cf. Pyura sp.

Ascidiidae

" Molgulidae Polycitoridae Pyuridae

"

ascidian (2 spp) S.Ph. Vertebrata Class Pisces

AZabes rufus Macleay, 1881

Alabidae

CaZZionymus caZauropomus Richardson, 1884

Callionymidae

37

Pisces (cont.)

Clinus perspicillatus Cuv. & Val., 1836 Cristiceps australis Cuv. & Val., 1836 MUraenichthys breviaeps Gunther, 1876 Gobius bifrenatus Kner, 1865 G. cf. lateralis Mcleay, 1881 Gobius sp. Nesogobius hinsbyi McCulloch & Ogilby, 1919 Genypterus blacodes Bloch & Schneider, 1801 Rhombosolea tapirina Gunther, 1862 Gymnepistes marmoratus ·Cuv. & Val. 1829 Stigmatopora argus Richardson, 1840 Syngnathus phiZZipi Lucas, 1891 cottoid sp.

38

Clinidae Echelidae Gobiidae ·If 11

" Ophidiidae Pleuronectidae Scorpaenidae Syngnathidae 11

APPENDIX I V.

Distribution data by species

The first line of each record giyes

specie~

name, family, species number and

the number of stations at which the species. was collected. Species are arranged in systematic order as indexed below, and alphabetical order within successive taxa.

Discrepancies in order between this list and that

in Appendix Ill have .resulted from recent taxonomic revisions.

Species which have

recently been fused are linked by brackets; those split have more than one species na.ne.

INDEX page

page Porifera

Crustacea (cont) Mysidacea

40

Coelenterata

Hydrozoa

61

40

Nemaliacea

62 62

40

Cumacea

Platyhelminthes

41

Tanaidacea

62

Nemertina

41

Isopoda

63

Priapulida

41

Amphipoda

65

Nematoda

41

Stomatopoda

70

Bryozoa

43

Natantia

70 71

Anthozoa

43

Anomura

Polyplacophora

43

Brachyura

71

Gastropoda

43

Macrura

72

Bivalvia

45

Pycnogonida

Cephalopoda

48

Echinoderma

Phoronida Mollusca

72

Asteroidea

72

Sipunculoidea

48

Holothuroidea

72

Echiuroidea

48

Echinoidea

73

Errantia

48

Ophiuroidea

73

Sedentaria

54

Hemichordata

73

60

Ascidiacea

73

Ostracoda·

60

Pisces

74

Copepoda

61

Cirripedia

61

Poly chaeta 0 ligochae ta Crustacea

39

TETHY I OAE

er • TI:THYA SF'1

TETRAeT I NOHORPHA SP1

.176

, NQ,QF' SITeS

:1,

477

, NO,OF' SITES

1

478

, NO,Qr SITES

1

419

, NQ,()F' SITES

1

573

1

NO,OF' SITES

1

278

, NO,OF' SITES

1

142

, NOoOF' SITES

:1.

:1,33

, NOoOF' S!fES U

141

, NOoOF' SP'ES

3

59~

, NO,OF' SITES

1

OD1

1

984 (,1,.,) CERACT I NOMORPHA SP2 984 (

,:s., ,,

CERACT I NOMORPHA SP3 984 1,1,,) eERACT I NDHORPHA SP4 980 (,:1,,) HEXACTINEI.l.,lll SPl,

957 ( , , 5 ) CAHPANULAR 11 DAE

eAHPANUl.ARlA SP1

CAHPANULAR 11 OAE

08El. I A AUSTRAL. IS

9U 1,1,.·,) 982 (,,.1)

908 ( , , 1 ) 967 ( , , , l , )

Pl.UMULARIIDAE

PI.,UHUL.AR lA SI;TACEO I DES

975 (,.1,)

986 ( , 1 , ) TUBULAR 11 DAE

TUBULAR I A LARYNX

EDWAROS I A SP1

90!1. 914 92!5 93!1 9441 955 96
(',1, 13)

683

1

NO,OF' SITES

1

l,4:,

,

NO,OF' SITES

J

323

1

NO, OF' SITE!!

3

361

, NO,DF' SITES

8

375

, NOoOF' SITES

1

424

1

NQ,OF' SITES

3

684

, NOoOr SJTES

1

100

, NO,OF'

spes

1

485

, NOoOr SITES

1

954 (,,8,)

922 (,1,,2) ANTHOZOAN SP2

945 11 .. 2 .. 1)

967 (1,1. .. )

ANTHOZOAN Sfl3

904 ( , 1 , )

901 (1,,"') ANTHOZOAN SP4 967 (,1,1.1)

ANTHOZOA,N SP5 928 (1,,.,1

ANTHOZOAN

96-Q ( " , 1,)

SP6

94!3 I. 7 .:1.~.5. 3) ANTHOZOAN SP7

966 11•111, er, AL.CVONAR I AN SP1 984 11.1,1,)

40

TURBEL.LAR I AN SP1

292

, NO, or

s 1TES

1

677

, NCtOF' S!?ES

1

708

, NO,OI' SITE!!

1

903 1,,1) · TURBEL.L4R I Ai-l SP&. 921 1 , 1 , ) TURBELLAR !AN

SF>~

966 1,,1 1 1

2q

PALAEONEMERTEAN SP1 9ns. 919 935 950 972

1,2,3.1 (517,3.4,41 c1 .. 1.> ( , .,1)

"03 (,.1, l '•23 12 .. .,) '~38 cn,1,1 ·.151 ( , , 1 ) J76 1.... 11

c, .•• t.l

904" 924 940 953 977

(3,2,.) 1.1 .. , 1.1,,) ( 4,. 219, 2l ( '111 1.)

907 929 941 962 978

903 931 949 9tl3

(,1.2,11 I, 1111.4, ,,,11

905
1110

9n5 922 932 (I .t1.J I) 941 1111.1.311) 950 ( , .. 21 964 977 11111211)

002 (S,,.,)

910

l,,u

( 11111 I I ( 21131111 I (211 I 1 1) (2,2,2111 ( 1· 212. 1· 1) (1, ,11

933 942 951 Q68 978

9~3

(I 21111) (I 1111,) (I 21111) 111,.1,11 (1,,111 c "1,2,)

1'1 31112,1) 11 .. ,11 (1, ",.I (41 ,4111 2) (',1, (1,1111) Cl, 211.')

I,

111,,) C1,11t~1l

,, '11 111,) 1111111', (111 ,1,) I~' 2 , I (2 111 l1 Ill

I 954 .... 1,)

NOtOF' SITES 39

(1,,,

275

1n2 ( , ,1) 930 ( '1, 2, 3,_1) H8 ~82 (", 1,)

(,.; ,1)

.

914 (I I 121 1) 918 932 (1,5,2,!514) 933 944 (3' 2, 7' 10' 9 I 94' 970 11 ·,. '1' 2) 971 984

906 92.5 936 Y54 935

c,1,,1 ( 11 I 11) (2,1,1,11 (' "2, 21 ( ll l l " I

907 ( ' ' ' , 1) 924 I I I 11111) 942 (1, 11 I I 9~1 I I 11 1o I

910 930 943 964

(', •1·')

( ,11 11613) (;I 1,1 2) ,.,,1)

912 931 94!:i (,1,2) 969 (1,1,1,)

~!r:::~

N

91!> 934! 94'6 971

(1,,.1 (1,1111111) c .. 1.,1 (11 01111)

916 l1u•111 933 ,,1.,,1) 949 9711

li!~tL21

919 ( 111 I o) 935 (', f I 1,) 950 I 1 , I 1.1 983 (11111 11.)

326

I

t.IQ,or SITES

4

531

1

NO,OF' SITES

J

231

I

t.IO,OF'

~!TEll

9

961 11111,) ~OPL.ONE'1ERTEo,-.

907 c , . , u

SP5 913

I." 1,)

PR I Af'UL I 0 !lP1 929 (11 111111'

942 1111 .. 11

964 11111111

932 111 ,2,1o11

946 ( , 1 , )

M(lNHYS TE~ ID ti:)l 918 (4.,,1 911!1 c ,1,') MONHVSTE~

953

( 1111

ID SP2

965

HON~VSTEH

(;I

I

11 I

I OAE

953 Cl 1 5 11,9,41 $169 C2,,1,1)

HO"'~YSTER

I OAE

971 (,.3,11

971 I•, ,1, I

;)59

3)

41

978 11•

, NO,o~' SITES

I. I

I

SPHAEROLA IMUS SP1

L1 NHQMOE 1\HE

f.H

I ~Q I OF' S (T~S

138

'

~

941 ( ' 1 , ' ) CVATHOL41MlD SP1 923 (1, 1,2, J) 941 (' 1, 1.,) 963 ( , , 1 )

CYATHOLAIM104E

924 ( J "1,) 948 (,,1',) 964 ( 11 l1 I)

CVATHOLfiiMIO SP2 901 (". '3)

933 (1,,.1) 934 (',,1.> 953 (2,24122,2,50)

937 (1,.,) 954 (,,2,)

CYATHDL41toiiDAE

906 ( 1 , . ' )

MICROLAIMIO SP1

907 ( .. 2.2.)

929

059



MICROLAIMIDAE

354

'

.

946 ('I', 2~) 962 (', 1 , , I

SITE~

5

I>JO, 01' S !TE 962 1111',, 1)

~

!TES 25 933 ( 1•. ·l.i 3) 947 (',,1 .. 969 1'11,~ I

(,,:I,)

ENOPl. ID SP2 901 914 926 938 956 969 981

114

r,,:n

924 941 ( t . , d 957 ( i '1 .. 1)

(12,3,,) (3,8,7,4,3) ( J 1,") (2,1,7,318) (,,1,) (1,1,4,3,1) (3, , 1 )

ENOPL I OAE (,,1)

(. ,1,) (4,1.,1,5) (,,1,) I , 1 , I) (' "1,) I 2, 3,, 4,1 l

906 918 930 944 961 972

Q58 (',l,,)

( ,3,, 2,3) (,1,5,3) ({,1',1) (3,1, ,2,)

(6,~11,2,2)

910 (,,1,) 923 (1,10,4,6,4)932 (1,1,1,1a1) 947 964 ( 11.1 .. ) (. ,1,., 977

(,,1,) 911 (3, 1J ,2,) 924 ( 6. 5,10. 5. 6)933 (.J", 1) 951 965 ( ' 1 , '1) (1,1,2,2,1) 978

ENOPLI OAE

ENOPl.ID SP4

908 11 .. , ) ENOPLINAE Sf'4

NO, 01' SITES 51

•,2, ",l •• 3 , 'ol • '2, l ,1,) '2, ·, l

520

, NO,OF' SITES

1

236

, NOoOI' SITES

6

ENOPLI OAE

675

, NQ,OF' S!TE'3

2

ENOPLI DAE

349

1

NO,OF' SITES

1

ONCH01.41 MI OAE

238

, NQ,OF SITE!!

1

ONCHOLA I MI OAE

239

, NO,OI' SITES

2

Q86

, NO.OI'

spes

6

ENOPL I OAE

ENOPL I NAE SP1

'

913 1.1 .. ,) 925 1 , .. 2) 110, 11o1,11)934 I ,t, .1> 952 966 1111 .. 2• l (1.1,11,5,8,3)980

985 (,2,1,)

913 (,,1,)

928 (,,1,) OXYSTOM!NAE SP1 953 1,,1,) ONCHOLA I MI NAE SP1 9!!4 ( , , 1 ) ONCHDI.A I MI Nil!; SP2 918 ( 1 , , )

942 (,,2,)

ONCHOLAIMINAE SP3 907 (,,51) ONCHDLAIMif\lAf: SP4

ONCHOLA I Mll'lAE SP6 918 ( 1 , , )

944 (,,l,l.)

ONCHOLA I MI NAE SP7 9?.7 ( 2 , , )

ONCHOl.AIMIOAE

572

, l>lOoOF SITES

3

ONCHOLA I MI OAE

645

1

NO, 01' SITES

3

251

, NOoOI' SiTE!!

5

235

, !>lO,OI' SITES

6

241

, NO,OF SITE!!

4

613

, NO.OI' SITES

1

244

, 'lOoOI' SITES 11

953 (1,,6,4) ONCHOI.AIMIDAE 982 ( ,1,.) ONCHOl.AIMIDAE

929 11·1··1,)

930 (,1 .. 1·>

929 (,1,,)

941 ( , , 2 )

932 ('I.,

,1)

944 (.,1,)

953 (
TR!PYt..IOAE

TR!PYLID SP1 901 (,1.1,)

942 (315,7,6,29>953 (411,497,63,405t59:51

933 11 .. 1 .. )

EURYSTOHININAE SP1 907 (,6,2,1)

ONCHOl.,A I MI OAE 939 (,1,>

953

MONONCH!D SP
958 C1•1.,1.l 962 (1,,1)

9~8

u.1.·,u

(1,1,111) 964 ('.,:1,,111)

925 (1,111.1) 949 (11,111) 965 (1111 I 1)

926 (1,1t1·1·1) 936 11111,1> 941 (1,,·,) 950 (1,111,1,1) 956 (1,1,1,1,1) 971 (1.1,,) 977 11·1·1,1,)

BUGULA CF.FULVA

FAF;CIMINARIIDAE

212

I

NO,OP SITES

1

SCRUPOCELLAR lA SCRUPOSA

SCRUPOCELLARIIOAE

272

1

NQ,OP SITES

1

045

,

NQ,OP SPES 57

926 (.,,,1) PHORON IS PA~~ l DA

PHORON I OAE

PHORONOPSIS ALBOMACULATA

901 (17.13,1914,15) 910 911 922 (2,1,3,13,2)923 927A(9,8 1 4 1 6,4) 929 933 (2,11,1,10,2) 938 (12,41.31,13,5) 948 (3,11512.1) 949 957 (3,4,419,2) 958 964 (1,,1,1,1) 965 97'1 (65,18,23, 30,59)

902 (3,~,7.8,8) 914 (3,15,10,8,2) (4,3,1,.5) 930 934 940 (11,4·,,2,7) 950 711111>3)917 (R,311211112) 926 (9,9,3,1,9) 927 ,,.,3,) ( 1,1121 1) 25 932 (B,4,1Q,9 1 l1) g~ ) 937 (9,814,11,12) (78, 74, 76,42,29) 946 ~ t t11 111 I) 94 7 (. 213 I .I 954 c27,18,8 1 1,1U 956 ( 2,2, oI 1) (16,4,817130) 962 (,1,) 963 ( {I 11 ~ :!', ) (10, 1 ,1,5) 971 (2,3,7,3) 972 (4 ·, 7' 4 ,1,) 976 (2,. l (3,7,9,10) 983 (3~,,39,43,24)

:s;b:i:fi;

I DAE

195 953 (,.,61)

907 (,38.,,)

972 (4,7,4,1,)

LEP I DOPLEUR f DAE

LEP!DOPLEURUS MATTHEWS!ANUS

SU8TEREN0CH! TON! DAE

1

NOoOP SITES

7

98.2 f " ll,) 682

1

NO,OF SITES

1

457

,

NO,OF" SITES

5

618

1

NOoOP SITES

1

70~

I

NO,OP SiTES

4

659

1

NO,Of' SITES

1

985 (2,,6,)

ACANTHOCH l 'ON I DAE ACANTHOCH\TONA GRANOSTRIATA

966 (41214.,5)

l SCHNOCH!

~ON!

DAE

AMBl.VCH!LEPAS OMICRON

F I SSURELL. I DAE

699

I

NQ,OP

SITES

1

AMBL.VCH!i.EPAS SP1

F! SSURELL.! DAE

629

I

NO,OP SITES

1

381

,

NOoOF SITES

7

'· 9'53 (3,

•)

ACT! NOLEUCA

ACMAE! DAE

985 1·1 .. 1•) Ci.ANCULUS L l t18A YUS

( 2,"')

945

TRQCH! DAE ,)

953 (

385

, NQ,OP SITES

4

366

,

NQ,OF

SITES

3

284

I

NO,OP SITES

8

TRDCH I OAE

650

, ND.OF S!TES

1

TURB! Nl DAE

640

, NQ,QP SITES

2

,,)

984 ( 41

~

1

,1 a

IHOCH l DAE FVI}

TRDCH!DAE

ETHM I NOli A fASMAN!CA

,,,)

PHAS! ANQTROCHliS

966

I R l SDDONTES

(14c18,15,l6,14) ( 1· 6, 4, 10•15)

945 (. ,5,1,)

9'53 ( '3,:1.,)

HI CRASTRAEA 907

953

43

HUND!T!A HEDLEYI 9A5

(

111

61

RADEPIGRUS PETT~ROI

fiOZ~RA

SP1

589

, NQ,Of" SITES

l

RISSO!DAE

388

, NO, Of" S !TES

2

R!SSO!OAE

9n2 (,3,1,2,3> 9?5 (1,.,1,) 948 {2,,,,) 9~~ (1,1.,,)

9r,3 (,2,1,> 926 (5.,1,1,5) 949 {2,,,,) 970 (?..,3,>

G~ANAR

cAr07EL l ANA

9D6 929 950 971

(5,1,4,34,11) (2,8,12. ,28)934 '•1•2,> 951

(1,.,)

953

( 69, 88, R3, 84,19)

IA

(1, ' ' . )

9~?

(1,.,1,) (,.,5)

(1.,,3,2)

916 957

(1,..,~,

917 ( , . , 1 ) 937 (7,2,1,11 958 ( u 1 u )

919 j,2.,,1l 942 j , , l , ) 96J (,1,1,21)

924 (,.1,,) 94 7 ( , l ' ' , 964 , , . , , ,

C!:R!TH!!OAE

PAGO,J·j~A

DlALA

L I 0 T I l DAE

)

985

( .1,.')

C!:R!TH!!UAE

n!ALA SEH!STH!ATA

Ci:Rl TH!IJAE

966

(?9,12.24,7,91

9R4

(?8,1~

9 n4 9::2

( 11

1 1 1

(I

I

ooe 9R3

liOIOAE

r •.

9R4

(

4 o2 911 917

( 1• 1, , 1 1 3 l 'i o13dlolll (?b,9,3'1,l3.11) ( 7, 8, 6, 'l, 1. 0 ) 9? I (A 1 11.5,l,3l912 (10,9,.1,'1,1)916 (?0,",U 1 10,5l 1,n

9? b

9:11 9~7

9Sr Y'i?

1

2,

1 ,

1

cl, 7 ' '). 7 ~

NUCtiL I OA!::

91

Q

9~3

912 -i20

9n.3 (2,?,"',0,12)CJ?9 (?.,,,1,1) 9A6 (.1,~,:>,,1)



904 c,,,l,>

9oo

(4,~1~,~)

(1,,,,1)

930

(2,1,,,)

931 (,,1,,)

(;?,,,,)

969

(1,1,?,1,1)

984

(1JJl1,l

907

(,.S,(,,_~)

91~

H~,o,9,4l

'll32 9A'

(4,,1l,l)

942

,,,t~,)

(,S,~,l)

913 9'19 9R?

(,1,.,2) 919 (ool,.) 944 (14,2o,6,1,?)

(t.,.,) (o1,.,)

914 944

(,,t,,> (,1,,,)

tiUCliL!ilA~ '-,lr) (

( 1 1 , 1

t

{1

1 1 .!.1 )

j

(, 1

1 ,

1' )

Q07 9?1 961

(2,9,3,1,10)908 (.,1,2,) 9?? (,1,,) 9R4

9 74

(1,,,,)

(3,>,4,1,1) (,.olo2) (2,.j,.J (39,61,'9,41.108)

(,.,.1)

611)

~u' UF

sIT~'

(.

11-1

NO. QF



,

964

(,1,',)

N0 1 0F SITES 14

950 (.,111)

PECTI~IDAE 1 1? 1 1 )

OST~EIDAt:

91 A ( 4

CO~CE

n;'IA 9~0

I

135

,

NO,Of' SITES

7

CRASSATELL I DAE

4?9

1

NO,UF SITE~

3

CONIJYL0CAR01 IDAF

230

I

ND,UF 'ITE>

2

CONOYLOCAROIIDAF

6">7

,

~O,Uf'

SITES

1

C YAM I IIJAE

373

,

~O,OF

'ITES

2

368

,

~O.OF

"lTES

3

o (,1,,,:

( 21

I

I

I)

(?I I

I

I



~UNT

(3,S,.,,4,?) (2,,1,,) C,l,1 1 d,)

(,2,:,) YS4 { . . ,:;,3,1.1) ~~3 (,1,1,2,ll

'1~3

\1,,,,)

Y77

(,:;,,1,3 1 11.)

912

t) r' (l

(

St

(

I

9~8

)

c,,l,,>

.1:::-11 lA JI>'\TA

S>il2 91? 9'1_7

9ro1 41_4 l.J?6

(1,f\,>=;,,5J~)

(,.4,2,1) (,,~,,)

906 917

t)

909 920 94.5 962

(,7,1) ~10 (117131?171 921 (,1811611d)94? (11,.,) 9~4

9~9

(214,11) 910 (,,21) 923 {2,1,,2) 935 ,,,,,3) 949 ('1 ,1 11 1,1) 959 (1,.114111) 971

( '1 j 21 b' 2) ( 1

~ 131

(I I I (I I I

i

1 )

l I 2) 2 I)

911 (1211017,317) 927At< 1 1 , 1 l Y29 9~1 ~~.1111111 9'59

(1 111 ,Jl (,1,?, 1

ACUT I DAF

(212,9,2,3) (4,3,1,3~3)

927A(,,,?,2l 946 ( I 1 :_) J 1,) 9~6 ( I I I 1) OA5 (?I 1, I I 1) 9A4 { 1, 1 1 1 ) J

(,1.1.6,21 (81?16,1,7) (,.1,.) (1,,.)

906 (4,2,.4,2) 917 ( 7' 2' t 15' 1 930 (1, .. 1 94 7 ( 2 f I:; I I j I ) 957 C11n,n,s1 967 ( 1 , , , )

9?2 G34 94d 95H 970

(.~.614121

(,1,6,1 (tttlt3) (1,,,5,1) (•.lu.l

(1.:!,4,51)

y 11 9/4 9:16 950 961 972

( t. 1 , " ) (1111211) (1,,1,) (15,9,2.~)

(?I 15,21)

(,l,.,)

91 3 9?5 9-:,7 951 962 976

{:?I

41

~ 1

1 )

,~,,,,~.,,

(?I 1 11

1

",)I)

(,1,2,2o6l (,.1)14) (4,2,2)

MllNTACUT I DAF () 1.) 1 () 1

)

"'i)

b

(

1 1 1

6

I)

I

J

95 7

(

1 1 1 1

1 )

Q

7j

(

11 I I I

)

~IJNTACuTlDAF

1,

I

~ ~ ~

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